CN114074854B - Using method of clothing trademark laser coil stock marking machine with liquid waste removal function - Google Patents

Abstract

The invention discloses a use method of a clothing trademark laser coil stock marking machine with a liquid waste removing function, which comprises a frame, wherein the front end of the frame is provided with a raw material unreeling device for unreeling raw material coil stock to be processed and a first isolation paper reeling device for reeling first isolation paper; a laser marking device for performing laser marking on the polyurethane material component layer is arranged in the middle of the frame; the rear end of the frame is provided with a liquid waste removing device for removing liquid waste, an upper waste collecting device for collecting upper waste of the polyurethane material component layer, a third isolation film unreeling device for unreeling a third isolation film coiled material, a second laminating device for laminating the third isolation film and the polyurethane material component layer and a finished product reeling device for reeling a finished product; the invention can remove liquid waste on the surface of the clothing trademark; the removal efficiency is high, the time consumption is less, and the production efficiency is improved.

Description

Using method of clothing trademark laser coil stock marking machine with liquid waste removal function

Technical Field

The invention relates to the technical field of laser marking, in particular to a method for using a clothing trademark laser coil stock marking machine with a function of removing liquid waste.

Background

The laser marking machine has the advantages of high marking precision, high processing speed, low cost, high automation level, no mechanical extrusion or mechanical stress damage to the processed articles, and the like, so that the laser marking machine is more and more widely applied and popularized.

As shown in fig. 1, the raw material to be processed 11 includes a first release paper 12, a urethane material member layer 13 provided below the first release paper 12, and a first positioning paper 14 provided below the urethane material member layer 13; the raw material 11 to be processed is manufactured into a coiled material.

In addition, the material processed by the laser marking machine is a polyurethane material component, and the polyurethane material component is required to be locally heated in a short time in the cutting process of the laser marking machine, so that the cutting is completed; finishing the shaping of the clothing trademark; when the laser locally heats the polyurethane material member, liquid waste is generated, and the polyurethane material member needs to be removed. Specifically, the method comprises the following steps; the liquid waste is oily matter, so that the formed clothing trademark needs to be removed; in particular to an oily substance on the surface of a clothing trademark.

In the prior art, the oily substance is cooled and volatilized by adopting a mode of being placed obliquely for a period of time, so that the oily substance automatically leaves the formed clothing trademark, and the oily substance is collected only by a sheet-shaped material, and meanwhile, the method is long in time consumption, low in production efficiency and unsuitable for coil stock marking.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a using method of a clothing trademark laser coil stock marking machine with a function of removing liquid waste; the marking processing of coil stock and the like can be realized, automatic marking and material rolling are realized, and liquid waste on the surface of a clothing trademark can be removed; the removal efficiency is high, the time consumption is less, and the production efficiency is improved.

In order to achieve the above purpose, the invention provides a method for using a laser coil marking machine for clothing trade marks with a function of removing liquid waste, which comprises a frame, wherein the front end of the frame is provided with a raw material unreeling device for unreeling raw material coil to be processed and a first isolation paper reeling device for reeling first isolation paper; a laser marking device for performing laser marking on the polyurethane material component layer is arranged in the middle of the frame; the rear end of the frame is provided with a liquid waste removing device for removing liquid waste, an upper waste collecting device for collecting upper waste of the polyurethane material component layer, a third isolation film unreeling device for unreeling a third isolation film coiled material, a second laminating device for laminating the third isolation film and the polyurethane material component layer and a finished product reeling device for reeling a finished product;

The liquid waste removing device comprises a plurality of upper rollers arranged on the frame and a plurality of lower rollers matched with the upper rollers; the ends of the upper roller and the lower roller are connected with driving pieces, and the driving pieces drive the upper roller and the lower roller to rotate; the liquid waste removing device also comprises a decontamination paper unreeling component which is arranged on the frame and used for unreeling the decontamination paper roll material, and a decontamination paper reeling component which is used for reeling the decontamination paper roll material; the decontamination paper is placed between the upper roller and the lower roller and is used for removing liquid waste on the surface of the polyurethane material component layer;

the lower part of the raw material unreeling device is provided with a bottom waste discharge raw material unreeling device for unreeling bottom waste discharge raw material coiled materials and a second isolation paper reeling device for reeling second isolation paper; the frame is provided with a first pressing device for pressing the polyurethane material component layer, the first positioning paper and the bottom waste discharge positioning paper; a bottom waste discharge positioning paper collecting device for collecting bottom waste discharge positioning paper is arranged below the finished product winding device;

The frame is provided with a first adsorption plate for adsorbing raw materials to be processed; a first stripping component for stripping the first release paper on the surface of the raw material to be processed is also arranged on one side of the first adsorption plate;

A third adsorption plate for adsorbing the bottom waste discharge raw materials is arranged on the frame; a third stripping assembly for stripping the second release paper on the surface of the bottom waste discharge raw material is also arranged on one side of the third adsorption plate;

The laser marking device comprises a second adsorption plate which is arranged on the frame and used for adsorbing raw materials to be processed; a laser marking machine for carrying out laser processing on the raw materials to be processed is arranged on one side of the second adsorption plate;

The upper waste collecting device comprises a second stripping component for stripping the upper waste of the polyurethane material component layer and an upper waste rolling component for rolling the upper waste;

The bottom waste discharge positioning paper collecting device comprises a fifth stripping component for stripping bottom waste discharge positioning paper and a bottom waste discharge positioning paper rolling component for rolling the bottom waste discharge positioning paper;

The using method comprises the following steps:

Step S1, a raw material unreeling device is used for unreeling raw materials to be processed; and is transferred to the first adsorption plate; simultaneously, using a bottom waste discharge raw material unreeling device to unreel the bottom waste discharge raw material; and is transferred to the third adsorption plate;

S2, stripping the first release paper on the surface of the raw material to be processed by using a first stripping assembly; the first release paper winding device is used for winding the first release paper; simultaneously, the second release paper on the surface of the bottom waste discharge raw material is peeled by using a third peeling assembly; winding the second release paper by using a second release paper winding device;

Step S3, using a first pressing device to press the polyurethane material component layer, the first positioning paper and the bottom waste discharge positioning paper;

S4, carrying out laser processing on the polyurethane material component layer adsorbed on the second adsorption plate by using a laser marking machine; processing three parts, wherein the first part is a clothing trademark; the second part is the upper waste around the clothing trademark, and the first positioning paper below the polyurethane material component layer is not cut in the processing at the moment; the third part is to cut the redundant waste inside the clothing trademark, and the cutting at the moment cuts the first positioning paper, but does not cut the bottom waste discharge positioning paper, so that the bottom waste discharge positioning paper can adhere and take away the redundant waste inside the clothing trademark;

Step S5, removing liquid waste on the surface of the urethane material component layer by using a liquid waste removing device; the decontamination paper is placed between the upper roller and the lower roller and is used for removing liquid waste on the surface of the polyurethane material component layer;

s6, stripping the upper waste around the clothing trademark by using a second stripping assembly; winding the upper waste by using an upper waste winding assembly; simultaneously, the fifth stripping component is used for stripping the bottom waste discharge positioning paper; the bottom waste discharge positioning paper winding assembly is used for winding the bottom waste discharge positioning paper;

s7, unreeling a third isolating film roll material by using a third isolating film unreeling device; covering the upper surface of the polyurethane material component layer with a third isolating film by using a second pressing device, and pressing the third isolating film together; forming a finished product; and winding the finished product by using a finished product winding device.

Preferably, the raw material unreeling device comprises a first hand-tightening type air expansion shaft, a first bearing seat and a first tension controller, wherein the first bearing seat is arranged on the rack; a first hand-tightening type inflatable shaft is arranged at one end of the first bearing seat; the first hand-tightening type inflatable shaft is sleeved with a coiled raw material to be processed; the tail end of the first hand-tightening type inflatable shaft is provided with a first inflation adjusting knob for fixing and loosening the raw material coil stock to be processed; the first tension controller is arranged on one side of the rack; the first hand-tightening type inflatable shaft is electrically connected with the first tension controller through a connecting wire; the first release paper winding device comprises a second hand-tightening type inflatable shaft, a second bearing seat, a second tension controller and a first motor; the second bearing is arranged on the frame; one end of the second bearing is provided with a second hand-tightening type inflatable shaft; the other end is provided with a first motor for driving the second hand-tightening type inflatable shaft to rotate; the second hand-tightening type inflatable shaft is sleeved with first rolled isolating paper; the tail end of the second hand-tightening type inflatable shaft is provided with a second inflation adjusting knob for fixing and loosening the first isolation paper roll; the second tension controller is also arranged on one side of the frame; the second hand-tightening type inflatable shaft is electrically connected with the second tension controller through a connecting wire; a plurality of guide rods for guiding raw materials to be processed are arranged on the first adsorption plate; the first adsorption plate is also provided with a plurality of vacuum adsorption holes; the first stripping component comprises a first adjusting rod arranged on the frame, and a first inclined stripping sheet is arranged on the first adjusting rod; the end part of the first adjusting rod is provided with a first rotating rod for adjusting the inclination angle of the first inclined stripping plate.

Preferably, the second adsorption plate is also provided with a plurality of vacuum adsorption holes; the laser marking machine carries out laser processing on the polyurethane material component layer adsorbed on the second adsorption plate.

Preferably, the dirt-removing paper unreeling assembly comprises a third hand-tightening type inflatable shaft and a third bearing seat; the third bearing seat is arranged on the frame; one end of the third bearing seat is provided with a third hand-tightening type inflatable shaft; the third hand-tightening type air expansion shaft is sleeved with coiled dirt-removing paper; the tail end of the third hand-tightening type inflatable shaft is provided with a third inflation adjusting knob for fixing and loosening the dirt-removing paper roll; the dirt-removing paper winding assembly comprises a fourth hand-tightening type inflatable shaft and a fourth bearing seat; the fourth bearing seat is arranged on the frame; a fourth hand-tightening type inflatable shaft is arranged at one end of the fourth bearing seat; the fourth hand-tightening type inflatable shaft is sleeved with coiled dirt-removing paper; the tail end of the fourth hand-tightening type inflatable shaft is provided with a fourth inflation adjusting knob for fixing and loosening the dirt-removing paper roll; a second motor is arranged on one side of the decontamination paper unreeling component or the decontamination paper reeling component; the second motor drives the third hand-tightening type inflatable shaft and the fourth hand-tightening type inflatable shaft to rotate.

Preferably, the second stripping component comprises a second adjusting rod arranged on the frame, and a second inclined stripping sheet is arranged on the second adjusting rod; the end part of the second adjusting rod is provided with a second rotating rod for adjusting the inclination angle of the second inclined stripping plate; the upper waste material rolling assembly comprises a fifth hand-tightening type inflatable shaft, a fifth bearing seat, a fifth tension controller and a fifth motor; the fifth bearing seat is arranged on the frame; a fifth hand-tightening type inflatable shaft is arranged at one end of the fifth bearing seat; the other end is provided with a fifth motor for driving the fifth hand-tightening type inflatable shaft to rotate; the fifth hand-tightening type inflatable shaft is sleeved with coiled upper waste; the tail end of the fifth hand-tightening type inflatable shaft is provided with a fifth inflation adjusting knob for fixing and loosening the upper waste coiled material; the fifth tension controller is also arranged on one side of the frame; the fifth hand-tightening type inflatable shaft is electrically connected with the fifth tension controller through a connecting wire.

Preferably, the third isolating film unreeling device comprises a sixth hand-tightening type air expansion shaft, a sixth bearing seat and a sixth tension controller, wherein the sixth bearing seat is arranged on the frame; a sixth hand-tightening type inflatable shaft is arranged at one end of the sixth bearing seat; a third coiled isolating film is sleeved on the sixth hand-tight type inflatable shaft; the tail end of the sixth hand-tightening type inflatable shaft is provided with a sixth inflation adjusting knob for fixing and loosening the third isolating film roll; the sixth tension controller is arranged on one side of the rack; the sixth hand-tightening type inflatable shaft is electrically connected with the sixth tension controller through a connecting wire;

The second pressing device comprises a first fixing plate arranged on one side of the frame and a second fixing plate arranged on the other side of the frame; the frame is provided with a first roller; the end part of the first roller is provided with a driving piece for driving the first roller to rotate; the middle parts of the first fixing plate and the second fixing plate are provided with first sliding blocks; a second roller is arranged between the two first sliding blocks; a plurality of first guide rods are sleeved above the two first sliding blocks; a spring is sleeved on the first guide rod; the third isolating film and the polyurethane material component layer are arranged between the first roller and the second roller; a first connecting rod is arranged above the second roller; the first connecting rod is arranged between the two first sliding blocks; grooves are formed in two ends of the first connecting rod and are respectively clamped on a third fixing plate and a fourth fixing plate, and the third fixing plate is arranged on the first fixing plate; the fourth fixing plate is arranged on the second fixing plate; the end part of the first connecting rod is provided with a third rotating rod for rotating the first connecting rod and adjusting the height of the second roller;

The finished product winding device comprises a seventh hand-tightening type air expansion shaft, a seventh bearing seat, an eighth tension controller and an eighth motor; the seventh bearing seat is arranged on the frame; a seventh hand-tightening type inflatable shaft is arranged at one end of the seventh bearing seat; the other end is provided with an eighth motor for driving the seventh hand-tightening type inflatable shaft to rotate; the seventh hand-tightening type inflatable shaft is sleeved with a coiled finished product; the seventh hand-tightening type inflatable shaft tail end is provided with a seventh inflation adjusting knob for fixing and loosening the finished coiled material; the seventh hand-tightening type inflatable shaft is electrically connected with the seventh tension controller through a connecting wire, and the seventh tension controller is arranged on one side of the frame.

Preferably, the bottom waste discharge raw material unreeling device comprises an eighth hand-tightening type air expansion shaft, an eighth bearing seat and an eighth tension controller, wherein the eighth bearing seat is arranged on the frame; an eighth hand-tightening type inflatable shaft is arranged at the eight end of the eighth bearing seat; the eighth hand-tightening type inflatable shaft is sleeved with a coiled bottom waste discharge raw material; the tail end of the eighth hand-tightening type inflatable shaft is provided with an eighth inflation adjusting knob for fixing and loosening the bottom waste discharge raw material coil; the eighth tension controller is arranged on one side of the frame; the eighth hand-tightening type inflatable shaft is electrically connected with the eighth tension controller through a connecting wire; the second isolating paper winding device comprises a ninth hand-tightening type inflatable shaft, a ninth bearing seat, a ninth tension controller and a ninth motor; the ninth bearing seat is arranged on the frame; a ninth hand-tightening type inflatable shaft is arranged at one end of the ninth bearing seat; the other end of the rotary shaft is provided with a ninth motor for driving the ninth hand-tightening type inflatable shaft to rotate; a second rolled isolating paper is sleeved on the ninth hand-tight type inflatable shaft; the end of the ninth hand-tightening type inflatable shaft is provided with a ninth inflation adjusting knob for fixing and loosening the second isolating paper roll; the ninth tension controller is also arranged on one side of the frame; the ninth hand-tightening type inflatable shaft is electrically connected with the ninth tension controller through a connecting wire; the third adsorption plate is provided with a plurality of guide rods for guiding the bottom waste discharge raw materials; the third adsorption plate is also provided with a plurality of vacuum adsorption holes; the third stripping assembly comprises a fourth adjusting rod arranged on the frame, and a fourth inclined stripping sheet is arranged on the fourth adjusting rod; the end part of the fourth adjusting rod is provided with a fourth rotating rod for adjusting the inclination angle of the fourth inclined stripping plate.

Preferably, the first pressing device comprises a fifth fixing plate arranged on one side of the frame and a sixth fixing plate arranged on the other side of the frame; a third roller is arranged on the frame; the end part of the third roller is provided with a driving piece for driving the third roller to rotate; the middle parts of the fifth fixed plate and the sixth fixed plate are provided with second sliding blocks; a fourth roller is arranged between the two second sliding blocks; a plurality of second guide rods are sleeved above the two second sliding blocks; a spring is sleeved on the second guide rod; the polyurethane material component layer, the first positioning paper and the bottom waste discharge positioning paper are arranged between the third roller and the fourth roller; a second connecting rod is arranged above the fourth roller; the second connecting rod is arranged between the two second sliding blocks; grooves are formed in two ends of the second connecting rod and are respectively clamped on a seventh fixing plate and an eighth fixing plate, and the seventh fixing plate is arranged on the fifth fixing plate; the eighth fixed plate is arranged on the sixth fixed plate; the end part of the second connecting rod is provided with a fifth rotating rod for rotating the second connecting rod and adjusting the height of the fourth roller; the fifth stripping component comprises a fifth adjusting rod arranged on the frame, and a fifth inclined stripping sheet is arranged on the fifth adjusting rod; a sixth rotating rod for adjusting the inclination angle of the fifth inclined stripping plate is arranged at the end part of the fifth adjusting rod; the bottom waste discharge positioning paper winding assembly comprises a tenth hand-tightening type air expansion shaft, a tenth bearing seat, a tenth tension controller and a tenth motor; the tenth bearing seat is arranged on the frame; a tenth hand-tightening type inflatable shaft is arranged at one end of the tenth bearing seat; the other end is provided with a tenth motor for driving the tenth hand-tightening type inflatable shaft to rotate; the tenth hand-tight type inflatable shaft is sleeved with coiled bottom waste discharge positioning paper; the end of the tenth hand-tightening type air expansion shaft is provided with a tenth tightening adjusting knob for fixing and loosening the bottom waste discharge positioning paper roll; the tenth tension controller is also arranged on one side of the frame; the tenth tight type inflatable shaft is electrically connected with the tenth tension controller through a connecting wire.

Preferably, a control device for controlling the laser coil stock marking machine for the clothing trademark is arranged on one side of the frame; a display device is arranged on the frame; one side or the lower part of the frame is provided with a vacuum generating device.

Compared with the prior art, the invention has the beneficial effects that:

The invention is provided with a raw material unreeling device, a strip-shaped material is adopted for reeling, unreeling is carried out on one side of a rack, and a first release paper reeling device is utilized for separating and reeling a first release paper on the surface of a raw material to be processed; then continuously conveying the materials to a laser marking device; the lower surface of the raw material to be processed is firmly adsorbed by utilizing vacuum, the raw material to be processed does not shift, warp and the like during laser marking, and meanwhile, a liquid waste removing device for removing liquid waste on the upper surface of the polyurethane material component layer is arranged on one side of the laser marking device, so that the liquid waste on the surface of the clothing trademark can be removed; the removal efficiency is high, the time consumption is less, and the production efficiency is improved; an upper waste collecting device for collecting the upper waste of the polyurethane material component layer is arranged at the rear end of the frame; removing and collecting the upper waste cut by the laser marking device; realizing the upper waste collection function; the finished product winding device is used for winding the finished product; the automatic marking and rolling machine can achieve marking processing on coiled materials and the like, and achieve automatic marking and rolling of the materials.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic cross-sectional view of a feedstock to be processed provided by the present invention;

FIG. 2 is a schematic diagram of a laser roll marking machine with a function of removing liquid waste for a trademark of apparel, provided by the invention;

FIG. 3 is a schematic diagram of the structure of the raw material unreeling device and the first release paper reeling device provided by the invention;

FIG. 4 is a schematic view of the structure of the middle part of the frame provided by the invention;

FIG. 5 is a schematic view of the structure of the unreeling assembly and reeling assembly of the decontaminated paper provided by the invention;

FIG. 6 is a schematic structural view of the finished product winding device provided by the invention;

FIG. 7 is a schematic structural diagram of a first pressing device or a second pressing device according to the present invention;

FIG. 8 is a schematic view of a second or fifth stripping assembly provided by the present invention;

FIG. 9 is a schematic structural view of a third stripping assembly provided by the present invention;

FIG. 10 is a schematic cross-sectional view of a finished product according to a first embodiment of the present invention;

FIG. 11 is a schematic cross-sectional view of a bottom discharge feedstock provided by the present invention;

fig. 12 is a schematic cross-sectional view of a finished product according to a third embodiment of the present invention.

The drawings include:

1-frame, 11-raw material to be processed, 12-first isolation paper, 13-polyurethane material component layer, 14-first positioning paper, 16-bottom waste discharge raw material, 17-second isolation paper, 18-bottom waste discharge positioning paper, 21-raw material unreeling device, 22-first isolation paper reeling device, 3-laser marking device, 4-liquid waste removing device, 98-upper waste, 5-upper waste collecting device, 19-third isolation film, 6-third isolation film unreeling device, 7-second lamination device, 8-finished product reeling device, 91-bottom waste discharge raw material unreeling device, 92-second isolation paper reeling device, 93-first pressing device, 94-bottom waste discharge positioning paper collecting device, 211-first hand-tightening type air expansion shaft, 212-first bearing seat, 214-first expansion adjusting knob, 221-second hand-tightening type air expansion shaft, 222-second bearing seat, 224-first motor, 225-second expansion adjusting knob, 23-first adsorption plate, 231-guide rod, 24-first stripping component, 241-first adjusting rod, 242-first inclined stripping plate, 243-first rotary rod, 31-second adsorption plate, 41-upper roller, 42-lower roller, 99-dirt removing paper, 43-dirt removing paper unreeling component, 44-dirt-removing paper winding assembly, 431-third hand-tight type air-expanding shaft, 432-third bearing seat, 434-third expansion adjusting knob, 441-fourth hand-tight type air-expanding shaft, 442-fourth bearing seat, 444-fourth expansion adjusting knob, 45-second motor, 51-second stripping assembly, 52-upper waste winding assembly, 511-second adjusting rod, 512-second inclined stripping plate, 513-second rotary rod, 521-fifth hand-tight type air-expanding shaft, 522-fifth bearing seat, 524-fifth motor, 525-fifth expansion adjusting knob, 61-sixth hand-tight type air-expanding shaft, 62-sixth bearing seat, 64-sixth expansion adjusting knob, 71-first fixed plate, 72-second fixed plate, 73-first roller, 74-first slider, 76-second roller, 77-first guide bar, 78-first connecting bar, 75-third fixed plate, 79-fourth fixed plate, 791-third rotary bar, 81-seventh hand-tight air inflation shaft, 82-seventh bearing seat, 84-eighth motor, 85-seventh expansion adjusting knob, 911-eighth hand-tight air inflation shaft, 912-eighth bearing seat, 914-eighth expansion adjusting knob, 921-ninth hand-tight air inflation shaft, 922-ninth bearing seat, third rotary bar, 81-seventh hand-tight air inflation shaft, 924-ninth motor, 925-ninth expansion adjusting knob, 26-third suction plate, 27-third stripping assembly, 271-fourth adjusting lever, 272-fourth inclined stripping plate, 273-fourth rotating lever, 931-fifth fixed plate, 932-sixth fixed plate, 933-third roller, 934-second slider, 936-fourth roller, 937-second guide bar, 938-second connecting rod, 935-seventh fixed plate, 939-eighth fixed plate, 9391-fifth rotating lever, 941-fifth stripping assembly, 942-bottom discharge positioning paper winding assembly, 9411-fifth adjusting lever, 9412-fifth inclined stripping sheet, 9413-sixth rotary rod, 9421-tenth hand-tightening type inflatable shaft, 9422-tenth bearing seat, 9424-tenth motor, 9425-tenth expansion adjusting knob, 33-control device, 34-display device, 35-vacuum generating device and 97-finished product.

Detailed Description

The technical solutions of the present embodiment of the present invention will be clearly and completely described below with reference to the drawings in the present embodiment of the present invention, and it is apparent that the described present embodiment is one embodiment of the present invention, but not all the present embodiments. All other embodiments, which can be made by those skilled in the art without making any inventive effort, are intended to be within the scope of the present invention.

Examples

Referring to fig. 2 to 10, the present invention provides a laser roll marking machine for clothing trademark with a function of removing liquid waste.

As shown in fig. 1, the first release paper 12 is a polyurethane material member layer 13 under the first release paper 12; the laser marking device 3 needs the polyurethane material component layer 13 to be processed; the first positioning paper 14 has a certain supporting surface or attaching surface for the polyurethane material member layer 13.

As shown in fig. 2, the laser coil stock marking machine for the clothing trademark comprises a frame 1, wherein the frame 1 is used as a support; aluminum profiles can be used; the front end of the frame 1 is provided with a raw material unreeling device 21 for unreeling a raw material 11 coil to be processed and a first release paper reeling device 22 for reeling a first release paper 12; before laser processing, the first release paper 12 needs to be separated and wound up from the surface of the raw material 11 to be processed.

The middle part of the frame 1 is provided with a laser marking device 3 for laser marking the polyurethane material component layer 13; specifically, after the first release paper 12 is removed, the polyurethane material member layer 13 is on the uppermost surface; the laser marking machine carries out laser processing on the polyurethane material component layer 13; the laser marking machine is not shown in the drawings; the raw material unreeling device 21 continuously conveys materials to the laser marking device 3; and the lower surface of the raw material to be processed 11 is firmly adsorbed by utilizing vacuum, and the raw material to be processed cannot shift during laser marking.

As shown in fig. 2 and 4; the rear end of the frame 1 is provided with a liquid waste removing device 4 for removing liquid waste; specifically, the surface liquid waste of the polyurethane material component layer 13 is removed by using the decontamination paper 99; can remove liquid waste on the surface of the clothing trademark; the removal efficiency is high, the time consumption is less, and the production efficiency is improved; the rear end of the frame 1 is provided with an upper waste collection device 5 for collecting upper waste 98 of the polyurethane material component layer 13; specifically, the upper waste 98 cut by the laser marking device 3 on the polyurethane material component layer 13 is separated and rolled, and redundant materials on the surface of the clothing trademark are removed; realizing the upper waste 98 collection function; the production efficiency is improved due to more automation; a third isolating film unreeling device 6 for unreeling a third isolating film 19 coil stock is arranged at the rear end of the frame 1; the third isolating film 19 covers the surface of the finished product 97 and is used for protecting the clothing trademark; the rear end of the frame 1 is also provided with a second pressing device 7 for pressing the third isolating film 19 and the polyurethane material component layer 13 and a finished product winding device 8 for winding a finished product 97; the automatic marking and rolling machine can achieve marking processing on coiled materials and the like, and achieve automatic marking and rolling of the materials.

As shown in fig. 3, the raw material unreeling device 21 comprises a first hand-tight balloon shaft 211, a first bearing seat 212 and a first tension controller, which is not shown in the drawings; the first bearing seat 212 is arranged on the frame 1; a first hand-tightening type inflatable shaft 211 is arranged at one end of the first bearing seat 212; the first hand-tightening type inflatable shaft 211 is sleeved with a coiled raw material 11 to be processed; the tail end of the first hand-tightening type inflatable shaft 211 is provided with a first inflation adjusting knob 214 for fixing and loosening the coiled material 11 of the raw material to be processed; the first tension controller is arranged on one side of the frame 1; the first hand-tightening type inflatable shaft 211 is electrically connected with the first tension controller through a connecting wire.

Further, the unreeling and installing process of the raw material 11 to be processed is that firstly; activating the first expansion adjustment knob 214 to loosen the first hand-tightened inflatable shaft 211; secondly, sleeving the coiled raw material 11 to be processed on the first hand-tightening type air expansion shaft 211, and adjusting the left and right positions of the raw material 11 to be processed; finally, the first expansion adjusting knob 214 is started to tension the first hand-tightening type inflatable shaft 211; the material 11 to be processed is thus fixed on the first hand-held inflatable shaft 211.

As shown in fig. 2, the raw material 11 to be processed unwound by the raw material unwinding device 21 needs to be transported, and specifically, a first adsorption plate 23 for adsorbing the raw material 11 to be processed is installed on the frame 1; the first adsorption plate 23 is provided with a plurality of guide rods 231 for guiding the raw material 11 to be processed; the first adsorption plate 23 is also provided with a plurality of vacuum adsorption holes; further, the guide rod 231 guides and positions the raw material 11 to be processed; the vacuum adsorption holes on the first adsorption plate 23 adsorb the raw material 11 to be processed, so that the raw material 11 to be processed is stably conveyed, the position is not easy to change, and the positioning and processing precision can be improved to a great extent; and the angle between the first adsorption plate 23 and the frame 1 can be adjusted, so that the adaptability is enhanced.

As shown in fig. 4, a first peeling assembly 24 for peeling the first release paper 12 on the surface of the raw material 11 to be processed is further installed on one side of the first adsorption plate 23; the first stripping assembly 24 comprises a first adjusting rod 241 arranged on the frame 1, and a first inclined stripping sheet 242 is arranged on the first adjusting rod 241; the end of the first adjusting lever 241 is provided with a first rotating lever 243 for adjusting the inclination angle of the first inclined peeling sheet 242.

Further, the first inclined peeling sheet 242 may separate or peel the first release paper 12 from the surface of the processing raw material 11; the rotation of the first rotating lever 243 can adjust the inclination angle of the first inclined peeling sheet 242 fixedly installed on the first adjusting lever 241, thereby being capable of adapting to different processing materials 11 and different peeling angles.

After the first release paper 12 is peeled off; the first release paper 12 needs to be wound up; specifically, the method comprises the following steps; as shown in fig. 3, the first separator winding device 22 includes a second hand-tight air expansion shaft 221, a second bearing 222, a second tension controller, and a first motor 224; the second bearing 222 is arranged on the frame 1; one end of the second bearing 222 is provided with a second hand-tightening balloon 221; the other end is provided with a first motor 224 for driving the second hand-tightening type inflatable shaft 221 to rotate; the second hand-tightening type inflatable shaft 221 is sleeved with first isolating paper 12 in a roll shape; the end of the second hand-tightening type inflatable shaft 221 is provided with a second inflation adjusting knob 225 for fixing and loosening the first release paper 12 roll; the second tension controller is also arranged on one side of the frame 1; the second hand-tightening type inflatable shaft 221 is electrically connected with the second tension controller through a connecting wire.

Further, in the winding process of the first release paper 12, first, the second expansion adjusting knob 225 is started to loosen the second tight-hand inflatable shaft 221; secondly, the first release paper 12 is sleeved on the second hand-tightening type inflatable shaft 221, and the left and right positions of the first release paper 12 are adjusted; finally, a second expansion adjusting knob 225 is started to tension the second hand-tight type inflatable shaft 221; the first release paper 12 is thus secured to the second hand-tight inflatable shaft 221.

As shown in fig. 4, the laser marking device 3 includes a second adsorption plate 31 mounted on the frame 1 for adsorbing the raw material 11 to be processed; the second adsorption plate 31 is further provided with a plurality of vacuum adsorption holes; a laser marking machine for carrying out laser processing on the raw material 11 to be processed is arranged on one side of the second adsorption plate 31; the laser marker performs laser processing on the polyurethane material member layer 13 adsorbed on the second adsorption plate 31.

Further, in the present embodiment, the laser marking machine only processes or cuts the polyurethane material member layer 13; does not cause damage, machining or cutting to the first positioning paper 14; in the first embodiment, as shown in fig. 10, the first positioning paper 14 is complete, the polyurethane material member layer 13 is incomplete, and is processed, and there is a trace of the processing.

Further, in the first embodiment, the laser marking machine is not shown in the drawings; the existing laser marking machine for processing the clothing trademark can be used; in this embodiment, no improvement is made to the laser marking machine.

As shown in fig. 2 and 4; the liquid waste removing device 4 comprises a plurality of upper rollers 41 arranged on the frame 1 and a plurality of lower rollers 42 matched with the upper rollers 41; the ends of the upper roller 41 and the lower roller 42 are connected with driving pieces, and the driving pieces drive the upper roller 41 and the lower roller 42 to rotate; specifically, the driving piece can be shared with other parts and connected by adopting a belt or a chain; but also a separate drive for use by itself only; the driving member may be an electric motor, a rotary cylinder or a hydraulic motor, etc.

As shown in fig. 2 and 5; the liquid waste removing device 4 further comprises a decontamination paper unreeling component 43 which is arranged on the frame 1 and used for unreeling the decontamination paper 99 coil stock, and a decontamination paper reeling component 44 which is used for reeling the decontamination paper 99 coil stock; the desmutting paper 99 is placed between the upper roller 41 and the lower roller 42 and is positioned on the upper surface of the polyurethane material member layer 13 which has been processed by the laser marking machine; the dirt removing paper 99 is used for rubbing and passing on the upper surface of the polyurethane material component layer 13 to remove liquid waste on the surface of the polyurethane material component layer 13.

As shown in fig. 5; the de-dirt paper unreeling assembly 43 comprises a third hand-tightening type inflatable shaft 431 and a third bearing block 432; the third bearing 432 is installed on the frame 1; one end of the third bearing seat 432 is provided with a third hand-tightening type inflatable shaft 431; the third hand-tightening type inflatable shaft 431 is sleeved with coiled dirt-removing paper 99; the third hand-tight balloon 431 has a third tight adjustment knob 434 at its end for securing and releasing the roll of decontaminated paper 99.

Further, the process of unreeling and installing the release paper 99 of the release paper unreeling assembly 43 is the same as the process of unreeling the raw material 11 to be processed of the raw material unreeling device 21, and will not be described herein.

As shown in fig. 5; the dirt-removing paper winding assembly 44 includes a fourth hand-tight air inflation shaft 441 and a fourth bearing housing 442; the fourth bearing seat 442 is installed on the frame 1; a fourth hand-tightening type balloon shaft 441 is installed at one end of the fourth bearing seat 442; the fourth hand-tightening type inflatable shaft 441 is sleeved with rolled dirt-removing paper 99; the fourth hand-tight balloon 441 has a fourth tight adjustment knob 444 at its end for securing and releasing the roll of stained paper 99.

Further, in the process of winding the dirt removing paper 99, first, the fourth expansion adjusting knob 444 is started to loosen the fourth hand-tight air expansion shaft 441; secondly, the decontamination paper 99 is sleeved on the fourth hand-tightening type inflatable shaft 441, and the left and right positions of the decontamination paper 99 are adjusted; finally, the fourth expansion adjustment knob 444 is activated to tighten the fourth hand-tight inflation shaft 441; thus, the cleaning paper 99 is fixed to the fourth hand-tight air inflation shaft 441.

In this embodiment, the dirt-removing paper unreeling component 43 and the dirt-removing paper reeling component 44 share independent power sources; separate power sources can also be used for each; specifically, a second motor 45 is installed at one side of the dirt-removing paper unreeling component 43 or the dirt-removing paper reeling component 44; the second motor 45 drives the third hand-tight gas expansion shaft 431 and the fourth hand-tight gas expansion shaft 441 to rotate.

As shown in fig. 2, the upper scrap collecting device 5 includes a second peeling assembly 51 for peeling the upper scrap 98 of the polyurethane material member layer 13 and an upper scrap rolling assembly 52 for rolling the upper scrap 98.

Specifically, the laser marking machine performs laser processing on the polyurethane material component layer 13 adsorbed on the second adsorption plate 31; machining or cutting the polyurethane material member layer 13; processing a clothing trademark; the upper waste 98 around the apparel brand needs to be peeled off and rolled up; leaving or revealing the finished apparel brand on the upper surface of the first positioning paper 14.

As shown in fig. 8; the second stripping assembly 51 comprises a second adjusting rod 511 arranged on the frame 1, and a second inclined stripping sheet 512 is arranged on the second adjusting rod 511; the end of the second adjusting lever 511 is provided with a second rotating lever 513 for adjusting the inclination angle of the second inclined stripping plate 512.

Further, after the polyurethane material component layer 13 is processed or cut by the laser marking machine, the polyurethane material component layer 13 comprises two parts, wherein one part is a clothing trademark; the reservation is needed; the other part is the upper scrap 98 around the clothing trademark; the second stripping assembly 51 strips the upper scrap 98 in particular, requiring stripping and winding; the upper waste collection device 5 winds up the upper waste 98.

The second inclined peel tab 512 may separate or peel the upper waste 98 around the apparel brand; the rotation of the second rotating lever 513 can adjust the inclination angle of the second inclined peeling sheets 512 fixedly installed on the second adjusting lever 511, thereby being able to accommodate different upper wastes 98 and different peeling angles.

After stripping the upper waste 98; the upper waste 98 needs to be rolled up; specifically, the method comprises the following steps; as shown in fig. 5, the upper waste wrap assembly 52 includes a fifth hand tight air inflation shaft 521, a fifth bearing housing 522, a fifth tension controller, and a fifth motor 524; the fifth bearing seat 522 is arranged on the frame 1; a fifth hand-tightening type balloon shaft 521 is installed at one end of the fifth bearing seat 522; the other end is provided with a fifth motor 524 for driving the fifth hand-tightening type air expansion shaft 521 to rotate; the fifth hand-tightening type inflatable shaft 521 is sleeved with the coiled upper waste 98; the end of the fifth hand-tight inflatable shaft 521 is provided with a fifth inflation adjustment knob 525 for fixing and releasing the upper waste 98 roll; the fifth tension controller is also arranged on one side of the frame 1; the fifth hand-tight inflatable shaft 521 is electrically connected with the fifth tension controller through a connecting wire.

Further, the winding process of the upper waste winding assembly 52 is the same as the winding process of the dirt removing paper winding assembly 44, and will not be described in detail herein.

As shown in fig. 5, the third separator unreeling device 6 comprises a sixth hand-tight air expansion shaft 61, a sixth bearing seat 62 and a sixth tension controller, wherein the sixth bearing seat 62 is arranged on the frame 1; a sixth hand-tightening type inflatable shaft 61 is arranged at one end of the sixth bearing seat 62; the sixth hand-tightening type inflatable shaft 61 is sleeved with a third coiled isolating film 19; the tail end of the sixth hand-tight balloon shaft 61 is provided with a sixth tight-expansion adjusting knob 64 for fixing and loosening the third isolating film 19 coiled material; the sixth tension controller is arranged on one side of the frame 1; the sixth hand-tightening type inflatable shaft 61 is electrically connected with the sixth tension controller through a connecting wire.

Further, the unwinding process of the third release film roll 19 by the third release film unwinding device 6 is the same as the unwinding process of the raw material roll 11 to be processed by the raw material unwinding device 21, and will not be described herein.

As shown in fig. 7, the second pressing device 7 includes a first fixing plate 71 installed at one side of the frame 1 and a second fixing plate 72 installed at the other side; the frame 1 is provided with a first roller 73; a driving member for driving the first roller 73 to rotate is arranged at the end part of the first roller 73; the middle parts of the first fixing plate 71 and the second fixing plate 72 are provided with a first sliding block 74; a second roller 76 is arranged between the two first sliding blocks 74; a plurality of first guide rods 77 are sleeved above the two first sliding blocks 74; a spring is sleeved on the first guide rod 77; the third isolating film 19 and the polyurethane material component layer 13 are arranged between the first roller 73 and the second roller 76; a first link 78 is provided above the second roller 76; the first connecting rod 78 is arranged between the two first sliding blocks 74; grooves are formed in two ends of the first connecting rod 78 and are respectively clamped on the third fixing plate 75 and the fourth fixing plate 79, and the third fixing plate 75 is arranged on the first fixing plate 71; the fourth fixing plate 79 is mounted on the second fixing plate 72; the end of the first link 78 is provided with a third rotating lever 791 for rotating the first link 78 and adjusting the height of the second drum 76.

Specifically, the third separator 19 is covered on the upper surface of the urethane material member layer 13 by the pressure between the first roller 73 and the second roller 76, and is pressed together; the recess in the first link 78 forms a cam structure; rotating the third rotating lever 791; the second roller 76 is driven to rise in height, and a first guide rod 77 is also arranged on the first sliding block 74; the lifting movement is very stable, the distance between the first roller 73 and the second roller 76 can be stably adjusted, the first guide rod 77 is also sleeved with a spring, the pretightening force can be added, and the third isolation film 19 can be better covered on the upper surface of the polyurethane material component layer 13 and pressed together; forming the finished product 97.

The finished product winding device 8 comprises a seventh hand-tightening type air expansion shaft 81, a seventh bearing seat 82, an eighth tension controller and an eighth motor 84; the seventh bearing seat 82 is arranged on the frame 1; a seventh hand-tightening type inflatable shaft 81 is arranged at one end of the seventh bearing seat 82; the other end is provided with an eighth motor 84 for driving the seventh hand-tightening type inflatable shaft 81 to rotate; a coiled finished product 97 is sleeved on the seventh hand-tight type inflatable shaft 81; the end of the seventh hand-tightening type inflatable shaft 81 is provided with a seventh inflation adjusting knob 85 for fixing and loosening the finished product 97 coiled material; the seventh tension controller is also arranged on one side of the frame 1; the seventh hand-tightening type inflatable shaft 81 is electrically connected with the seventh tension controller through a connecting wire.

Further, the winding process of the finished product winding device 8 is the same as the winding process of the dirt-removing paper winding assembly 44, and will not be described in detail herein.

As shown in fig. 2 and 3, a control device 33 for controlling a laser coil marking machine for clothing trade marks is arranged on one side of the frame 1; the frame 1 is provided with a display device 34; a vacuum generating device 35 is arranged at one side or below the frame 1.

Examples

The second embodiment of the invention provides a method for using a laser coil marking machine for clothing trademark with a function of removing liquid waste.

The method comprises the following steps:

step S1, a raw material 11 to be processed is fed and unreeled by using a raw material unreeling device 21; and is conveyed onto the first adsorption plate 23;

Step S2, stripping the first release paper 12 on the surface of the raw material 11 to be processed by using a first stripping assembly 24; and the first release paper 12 is wound up using the first release paper winding device 22;

Step S3 of laser processing the polyurethane material member layer 13 adsorbed on the second adsorption plate 31 using a laser marker; processing two parts, wherein one part is a clothing trademark; the other part is the upper scrap 98 around the clothing trademark;

step S4, removing the liquid waste on the surface of the urethane material member layer 13 by using the liquid waste removing device 4; specifically, the desmutting paper 99 is placed between the upper roller 41 and the lower roller 42, and is used to remove liquid waste on the surface of the polyurethane material member layer 13;

Step S5, stripping the upper waste 98 around the clothing trademark by using a second stripping assembly 51; the upper waste 98 is wound up using the upper waste winding assembly 52;

Step S6, unreeling the third isolating film 19 coiled material by using a third isolating film unreeling device 6; covering the upper surface of the polyurethane material member layer 13 with a third separator 19 using a second press-fit device 7, and pressing together; forming a finished product 97; the finished product 97 is wound up using the finished product winding device 8.

Examples

The third embodiment of the invention provides a laser coil marking machine for clothing trademarks, which has the function of removing liquid waste; including all of the devices of embodiment one; there are also the following differences, including the following means.

In the processing, for example: when the O-shaped or A-shaped clothing trademark is used, unnecessary waste materials in the O-shaped or A-shaped clothing trademark are required to be discharged, and waste materials are required to be discharged and rolled.

As shown in fig. 12, a cross-sectional schematic view of the finished product provided in embodiment three; removing redundant waste materials in the O-shaped or A-shaped clothing trademark from the bottom of the first positioning paper 14, and performing laser processing on the polyurethane material component layer 13 adsorbed on the second adsorption plate 31 by a laser marking machine; not only the polyurethane material member layer 13 is cut; the unnecessary waste inside the O-type or a-type clothing trademark is also cut, and the first positioning paper 14 is cut at this time, so that the unnecessary waste inside the O-type or a-type clothing trademark is discharged from the bottom.

Specifically, the third embodiment has substantially the same structure as the first embodiment, except that: a bottom waste discharge raw material unreeling device 91 for unreeling the bottom waste discharge raw material 16 roll and a second release paper reeling device 92 for reeling the second release paper 17 are arranged below the raw material unreeling device 21; the frame 1 is provided with a first pressing device 93 for pressing the polyurethane material component layer 13, the first positioning paper 14 and the bottom waste discharge positioning paper 18; a bottom waste disposal positioning paper collecting device 94 for collecting the bottom waste disposal positioning paper 18 is arranged below the finished product winding device 8.

As shown in fig. 11, the bottom discharge raw material 16 includes a second separator 17 and a bottom discharge positioning paper 18 provided below the second separator 17; the bottom waste material 16 is also made into a roll. Specifically, the bottom waste discharge positioning paper 18 has a certain viscosity, and can adhere the cut excessive waste inside, so that the upper surface of the bottom waste discharge positioning paper 18 needs to be protected, and the second release paper 17 needs to be peeled off and rolled up when in use.

As shown in fig. 2 and 3, the bottom reject material 16 needs to be unwound, specifically: unreeling the bottom waste discharge raw material 16 by adopting a bottom waste discharge raw material unreeling device 91; further, the bottom waste discharge raw material unreeling device 91 comprises an eighth hand-tightening type inflatable shaft 911, an eighth bearing seat 912 and an eighth tension controller, wherein the eighth bearing seat 912 is arranged on the frame 1; an eighth hand-tightening type inflatable shaft 911 is arranged at the eight ends of the eighth bearing seat 912; the eighth hand-tightening type inflatable shaft 911 is sleeved with a coiled bottom waste discharge raw material 16; the end of the eighth hand-tightening type inflatable shaft 911 is provided with an eighth inflation adjusting knob 914 for fixing and loosening the bottom waste discharge raw material 16 coil; the eighth tension controller is arranged on one side of the frame 1; the eighth hand-tightening type inflatable shaft 911 is electrically connected with the eighth tension controller through a connecting wire.

Further, the unreeling process of the bottom waste material 16 by the bottom waste material unreeling device 91 is the same as the unreeling process of the raw material 11 to be processed by the raw material unreeling device 21, and will not be described herein.

As shown in fig. 4, the bottom waste material 16 unwound by the bottom waste material unwinding device 91 needs to be transported, and specifically, the frame 1 is provided with a third adsorption plate 26 for adsorbing the bottom waste material 16; the third adsorption plate 26 is provided with a plurality of guide rods 231 for guiding the bottom waste discharge raw material 16; the third adsorption plate 26 is also provided with a plurality of vacuum adsorption holes; the vacuum adsorption holes on the third adsorption plate 26 adsorb the bottom waste discharge raw material 16, so that the bottom waste discharge raw material 16 is stably conveyed, the position is not easy to change, and the positioning and processing precision can be improved to a great extent; and the angle between the third adsorption plate 26 and the frame 1 can be adjusted, so that the adaptability is enhanced.

As shown in fig. 4, after the bottom waste material 16 is transported, the second release paper 17 on the surface of the bottom waste material 16 needs to be peeled off; specifically, a third stripping component 27 for stripping the second release paper 17 on the surface of the bottom waste discharge raw material 16 is further installed on one side of the third adsorption plate 26; the third stripping assembly 27 comprises a fourth adjusting rod 271 arranged on the frame 1, and a fourth inclined stripping plate 272 is arranged on the fourth adjusting rod 271; the end of the fourth adjusting lever 271 is provided with a fourth rotating lever 273 for adjusting the inclination angle of the fourth inclined stripping plate 272.

Further, the structure and the peeling principle of the third peeling assembly 27 are the same as those of the first peeling assembly 24, and will not be described herein.

As shown in fig. 2 and 3, after the second release paper 17 is peeled, it is required to be wound, and specifically, the second release paper winding device 92 includes a ninth hand-tight balloon shaft 921, a ninth bearing seat 922, a ninth tension controller and a ninth motor 924; the ninth bearing seat 922 is arranged on the frame 1; a ninth hand-tightening type inflatable shaft 921 is arranged at one end of the ninth bearing seat 922; the other end is provided with a ninth motor 924 for driving the ninth hand-tightening type inflatable shaft 921 to rotate; a second isolating paper 17 in a roll shape is sleeved on the ninth hand-tight type inflatable shaft 921; the end of the ninth hand-tight balloon shaft 921 is provided with a ninth tight-expansion adjusting knob 925 for fixing and releasing the second release paper 17 roll; the ninth tension controller is also arranged on one side of the frame 1; the ninth hand-tight balloon shaft 921 is electrically connected with the ninth tension controller through a connecting wire.

Further, the winding process of the second separator winding device 92 is the same as the winding process of the dirt-removing paper winding assembly 44, and will not be described herein.

As shown in fig. 4 and 7, after the second separator 17 is wound, the bottom waste disposal positioning paper 18 needs to be attached to the bottom of the first positioning paper 14, specifically, the polyurethane material component layer 13, the first positioning paper 14 and the bottom waste disposal positioning paper 18 are pressed together, and further, the first pressing device 93 includes a fifth fixing plate 931 installed on one side of the frame 1 and a sixth fixing plate 932 installed on the other side; a third roller 933 is arranged on the frame 1; the end part of the third roller 933 is provided with a driving piece for driving the third roller 933 to rotate; the middle parts of the fifth fixed plate 931 and the sixth fixed plate 932 are respectively provided with a second slider 934; a fourth roller 936 is arranged between the two second sliders 934; a plurality of second guide rods 937 are sleeved above the two second sliding blocks 934; a spring is sleeved on the second guide rod 937; the urethane material member layer 13, the first positioning paper 14, and the bottom discharge positioning paper 18 are installed between the third roller 933 and the fourth roller 936; a second link 938 is mounted above the fourth roller 936; the second connecting rod 938 is arranged between the two second sliding blocks 934; grooves are formed in two ends of the second connecting rod 938 and are respectively clamped on a seventh fixing plate 935 and an eighth fixing plate 939, and the seventh fixing plate 935 is arranged on the fifth fixing plate 931; the eighth fixed plate 939 is mounted on the sixth fixed plate 932; the end of the second link 938 is provided with a fifth rotating lever 9391 for rotating the second link 938 and adjusting the height of the fourth roller 936.

Further, the structure and the peeling principle of the first pressing device 93 are the same as those of the second pressing device 7, and will not be described herein.

As shown in fig. 2, after the liquid waste on the surface of the polyurethane material component layer 13 is removed, the upper waste 98 around the trademark of the apparel is peeled off simultaneously by using the second peeling means 51; stripping the bottom waste disposal positioning paper 18 using a fifth stripping assembly 941; an upper peel; one for bottom stripping; after stripping, the bottom waste disposal positioning paper 18 needs to be rolled; the method comprises the following steps: the bottom discharge positioning paper collecting device 94 includes a fifth peeling assembly 941 for peeling the bottom discharge positioning paper 18 and a bottom discharge positioning paper winding assembly 942 for winding the bottom discharge positioning paper 18.

As shown in fig. 8, the fifth peeling assembly 941 includes a fifth adjusting lever 9411 mounted on the frame 1, and a fifth inclined peeling sheet 9412 is mounted on the fifth adjusting lever 9411; the end of the fifth adjusting lever 9411 is provided with a sixth rotating lever 9413 for adjusting the inclination angle of the fifth inclined peeling sheet 9412.

Further, the structure and the peeling principle of the fifth peeling assembly 941 are the same as those of the first peeling assembly 24, and will not be described herein.

As shown in fig. 6, the bottom waste disposal positioning paper winding assembly 942 includes a tenth hand-tight balloon shaft 9421, a tenth bearing housing 9422, a tenth tension controller, and a tenth motor 9424; the tenth bearing seat 9422 is installed on the frame 1; a tenth hand-tightening type inflatable shaft 9421 is arranged at one end of the tenth bearing seat 9422; the other end is provided with a tenth motor 9424 for driving the tenth hand-tight balloon shaft 9421 to rotate; the tenth hand-tight type inflatable shaft 9421 is sleeved with coiled bottom waste discharge positioning paper 18; the end of the tenth hand-tightening type inflatable shaft 9421 is provided with a tenth inflation adjusting knob 9425 for fixing and loosening the bottom waste discharge positioning paper 18 roll; the tenth tension controller is also arranged on one side of the frame 1; the tenth tight balloon shaft 9421 is electrically connected to the tenth tension controller via a connecting wire.

Further, the winding process of the bottom waste disposal positioning paper winding component 942 is the same as the winding process of the dirt-removing paper winding component 44, and will not be described herein.

Examples

The fourth embodiment of the invention provides a using method of the third embodiment.

The method comprises the following steps:

step S1, a raw material 11 to be processed is fed and unreeled by using a raw material unreeling device 21; and is conveyed onto the first adsorption plate 23;

meanwhile, the bottom waste discharge raw material 16 is fed and unreeled using the bottom waste discharge raw material unreeler 91; and is conveyed onto the third adsorption plate 26;

Step S2, stripping the first release paper 12 on the surface of the raw material 11 to be processed by using a first stripping assembly 24; and the first release paper 12 is wound up using the first release paper winding device 22;

At the same time, the second release paper 17 on the surface of the bottom waste material 16 is peeled off using the third peeling means 27; and the second separator 17 is wound up using the second separator winding device 92;

Step S3, using a first pressing device 93 to press the polyurethane material component layer 13, the first positioning paper 14 and the bottom waste discharge positioning paper 18;

Step S4, laser processing is performed on the polyurethane material member layer 13 adsorbed on the second adsorption plate 31 using a laser marking machine; processing three parts, wherein the first part is a clothing trademark; the second part is the upper scrap 98 around the clothing trademark, and the first positioning paper 14 below the polyurethane material component layer 13 is not cut by processing at the moment; the third part is to cut the redundant waste inside the clothing trademark, and the cutting at this time cuts the first positioning paper 14, but does not cut the bottom waste discharge positioning paper 18, so that the bottom waste discharge positioning paper 18 can adhere and take away the redundant waste inside the clothing trademark;

Step S5, removing the liquid waste on the surface of the urethane material member layer 13 by using the liquid waste removing device 4; specifically, the desmutting paper 99 is placed between the upper roller 41 and the lower roller 42, and is used to remove liquid waste on the surface of the polyurethane material member layer 13;

step S6, stripping the upper waste 98 around the clothing trademark by using a second stripping assembly 51; the upper waste 98 is wound up using the upper waste winding assembly 52;

At the same time, the bottom waste disposal positioning paper 18 is peeled off using the fifth peeling member 941; the bottom waste disposal positioning paper 18 is wound up using a bottom waste disposal positioning paper winding up assembly 942;

Step S7, unreeling the third isolating film 19 coiled material by using a third isolating film unreeling device 6; covering the upper surface of the polyurethane material member layer 13 with a third separator 19 using a second press-fit device 7, and pressing together; forming a finished product 97; the finished product 97 is wound up using the finished product winding device 8.

The above examples are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above examples, and any other changes, modifications, substitutions, combinations, and simplifications that do not depart from the spirit and principle of the present invention should be made in the equivalent manner, and the embodiments are included in the protection scope of the present invention.

Claims (9)

1. The application method of the clothing trademark laser coil stock marking machine with the function of removing liquid waste is characterized by comprising a frame (1), wherein a raw material unreeling device (21) for unreeling a coil stock of raw materials (11) to be processed and a first isolation paper reeling device (22) for reeling a first isolation paper (12) are arranged at the front end of the frame (1); a laser marking device (3) for performing laser marking on the polyurethane material component layer (13) is arranged in the middle of the frame (1); the rear end of the frame (1) is provided with a liquid waste removing device (4) for removing liquid waste, an upper waste collecting device (5) for collecting upper waste (98) of the polyurethane material component layer (13), a third isolation film unreeling device (6) for unreeling a third isolation film (19) coiled material, a second laminating device (7) for laminating the third isolation film (19) and the polyurethane material component layer (13) and a finished product reeling device (8) for reeling a finished product (97);

The liquid waste removing device (4) comprises a plurality of upper rollers (41) arranged on the frame (1) and a plurality of lower rollers (42) matched with the upper rollers (41); the ends of the upper roller (41) and the lower roller (42) are connected with driving pieces, and the driving pieces drive the upper roller (41) and the lower roller (42) to rotate; the liquid waste removing device (4) further comprises a decontamination paper unreeling component (43) which is arranged on the frame (1) and used for unreeling the decontamination paper (99) coiled material, and a decontamination paper reeling component (44) which is used for reeling the decontamination paper (99) coiled material; the dirt removing paper (99) is placed between the upper roller (41) and the lower roller (42) and is used for removing liquid waste on the surface of the polyurethane material component layer (13);

A bottom waste discharge raw material unreeling device (91) for unreeling a bottom waste discharge raw material (16) coil stock and a second isolation paper reeling device (92) for reeling a second isolation paper (17) are arranged below the raw material unreeling device (21); the machine frame (1) is provided with a first pressing device (93) for pressing the polyurethane material component layer (13), the first positioning paper (14) and the bottom waste discharge positioning paper (18); a bottom waste discharge positioning paper collecting device (94) for collecting the bottom waste discharge positioning paper (18) is arranged below the finished product winding device (8);

A first adsorption plate (23) for adsorbing the raw material (11) to be processed is arranged on the frame (1); a first stripping assembly (24) for stripping the first release paper (12) on the surface of the raw material (11) to be processed is also arranged on one side of the first adsorption plate (23);

a third adsorption plate (26) for adsorbing the bottom waste discharge raw material (16) is arranged on the frame (1); a third stripping assembly (27) for stripping the second release paper (17) on the surface of the bottom waste discharge raw material (16) is also arranged on one side of the third adsorption plate (26);

The laser marking device (3) comprises a second adsorption plate (31) which is arranged on the frame (1) and used for adsorbing the raw material (11) to be processed; a laser marking machine for carrying out laser processing on the raw material (11) to be processed is arranged on one side of the second adsorption plate (31);

The upper waste collection device (5) comprises a second stripping assembly (51) for stripping the upper waste (98) of the polyurethane material component layer (13) and an upper waste rolling assembly (52) for rolling the upper waste (98);

The bottom waste discharge positioning paper collecting device (94) comprises a fifth stripping assembly (941) for stripping the bottom waste discharge positioning paper (18) and a bottom waste discharge positioning paper rolling assembly (942) for rolling the bottom waste discharge positioning paper (18);

The using method comprises the following steps:

step S1, a raw material unreeling device (21) is used for unreeling raw materials (11) to be processed; and is transported to the first adsorption plate (23); simultaneously, the bottom waste discharge raw material unreeling device (91) is used for unreeling the bottom waste discharge raw material (16); and is transported to a third adsorption plate (26);

S2, stripping the first release paper (12) on the surface of the raw material (11) to be processed by using a first stripping assembly (24); and winding the first release paper (12) by using a first release paper winding device (22); simultaneously, a third stripping component (27) is used for stripping the second release paper (17) on the surface of the bottom waste discharge raw material (16); and winding the second release paper (17) by using a second release paper winding device (92);

Step S3, using a first pressing device (93) to press the polyurethane material component layer (13), the first positioning paper (14) and the bottom waste discharge positioning paper (18);

Step S4, using a laser marking machine to carry out laser processing on the polyurethane material component layer (13) adsorbed on the second adsorption plate (31); processing three parts, wherein the first part is a clothing trademark; the second part is the upper waste (98) around the clothing trademark, and the first positioning paper (14) below the polyurethane material component layer (13) is not cut by processing at the moment; the third part is to cut the redundant waste inside the clothing trademark, the first positioning paper (14) is cut at the moment of cutting, but the bottom waste discharge positioning paper (18) is not cut, so that the bottom waste discharge positioning paper (18) can adhere and take away the redundant waste inside the clothing trademark;

step S5, removing liquid waste on the surface of the urethane material member layer (13) by using a liquid waste removing device (4); the decontamination paper (99) is placed between the upper roller (41) and the lower roller (42) and is used for removing liquid waste on the surface of the polyurethane material component layer (13);

Step S6, stripping the upper waste (98) around the clothing trademark by using a second stripping assembly (51); winding the upper waste (98) with an upper waste winding assembly (52); simultaneously, the fifth stripping component (941) is used for stripping the bottom waste discharge positioning paper (18); winding the bottom waste discharge positioning paper (18) by using a bottom waste discharge positioning paper winding assembly (942);

S7, unreeling a third isolating film (19) coiled material by using a third isolating film unreeling device (6); covering the upper surface of the polyurethane material component layer (13) with a third isolating film (19) by using a second pressing device (7), and pressing the third isolating film together; forming a finished product (97); and winding the finished product (97) by using a finished product winding device (8).

2. The method for using a laser coil marking machine for clothing trademarks with the function of removing liquid waste according to claim 1, characterized in that the raw material unreeling device (21) comprises a first hand-tightening type air inflation shaft (211), a first bearing seat (212) and a first tension controller, wherein the first bearing seat (212) is arranged on a frame (1); one end of the first bearing seat (212) is provided with a first hand-tightening type air expansion shaft (211); the first hand-tightening type inflatable shaft (211) is sleeved with a coiled raw material (11) to be processed; the tail end of the first hand-tightening type inflatable shaft (211) is provided with a first inflation adjusting knob (214) for fixing and loosening the coiled material of the raw material (11) to be processed; the first tension controller is arranged on one side of the frame (1); the first hand-tightening type inflatable shaft (211) is electrically connected with the first tension controller through a connecting wire; the first release paper winding device (22) comprises a second hand-tightening type air expansion shaft (221), a second bearing seat (222), a second tension controller and a first motor (224); the second bearing (222) is arranged on the frame (1); one end of the second bearing (222) is provided with a second hand-tightening type inflatable shaft (221); the other end is provided with a first motor (224) for driving the second hand-tightening type air expansion shaft (221) to rotate; the second hand-tightening type inflatable shaft (221) is sleeved with first isolating paper (12) in a roll shape; the tail end of the second hand-tightening type inflatable shaft (221) is provided with a second inflation adjusting knob (225) for fixing and loosening the first release paper (12) coiled material; the second tension controller is also arranged on one side of the frame (1); the second hand-tightening type inflatable shaft (221) is electrically connected with the second tension controller through a connecting wire; a plurality of guide rods (231) for guiding the raw materials (11) to be processed are arranged on the first adsorption plate (23); the first adsorption plate (23) is also provided with a plurality of vacuum adsorption holes; the first stripping assembly (24) comprises a first adjusting rod (241) arranged on the frame (1), and a first inclined stripping sheet (242) is arranged on the first adjusting rod (241); the end part of the first adjusting rod (241) is provided with a first rotating rod (243) for adjusting the inclination angle of the first inclined stripping plate (242).

3. The method for using a laser roll marking machine for clothing trademarks with the function of removing liquid waste according to claim 1, wherein a plurality of vacuum adsorption holes are further arranged on the second adsorption plate (31); the laser marking machine performs laser processing on the polyurethane material component layer (13) adsorbed on the second adsorption plate (31).

4. A method of using a laser roll marking machine for apparel brands with the function of removing liquid waste according to claim 1, characterized in that said release paper unreeling assembly (43) comprises a third hand-tight air-inflated shaft (431) and a third bearing seat (432); the third bearing seat (432) is arranged on the frame (1); one end of the third bearing seat (432) is provided with a third hand-tightening type inflatable shaft (431); the third hand-tightening type air expansion shaft (431) is sleeved with coiled dirt removing paper (99); the tail end of the third hand-tightening type inflatable shaft (431) is provided with a third inflation adjusting knob (434) for fixing and loosening the dirt-removing paper (99) coiled material; the dirt-removing paper winding assembly (44) comprises a fourth hand-tightening type air inflation shaft (441) and a fourth bearing seat (442); the fourth bearing seat (442) is arranged on the frame (1); one end of the fourth bearing seat (442) is provided with a fourth hand-tightening type inflatable shaft (441); the fourth hand-tightening type air expansion shaft (441) is sleeved with coiled dirt removal paper (99); the tail end of the fourth hand-tightening type inflatable shaft (441) is provided with a fourth inflation adjusting knob (444) for fixing and loosening the dirt-removing paper (99) coiled material; a second motor (45) is arranged on one side of the decontamination paper unreeling component (43) or the decontamination paper reeling component (44); the second motor (45) drives the third hand-tight gas expansion shaft (431) and the fourth hand-tight gas expansion shaft (441) to rotate.

5. A method of using a laser roll marking machine for apparel brands with the function of removing liquid waste according to claim 3, characterized in that the second stripping assembly (51) comprises a second adjusting rod (511) arranged on the frame (1), and a second inclined stripping sheet (512) is arranged on the second adjusting rod (511); the end part of the second adjusting rod (511) is provided with a second rotating rod (513) for adjusting the inclination angle of the second inclined stripping plate (512); the upper waste wrap-up assembly (52) includes a fifth hand-tight air inflation shaft (521), a fifth bearing housing (522), a fifth tension controller, and a fifth motor (524); the fifth bearing seat (522) is arranged on the frame (1); one end of the fifth bearing seat (522) is provided with a fifth hand-tightening type air expansion shaft (521); the other end is provided with a fifth motor (524) for driving the fifth hand-tightening type air expansion shaft (521) to rotate; the fifth hand-tightening type inflatable shaft (521) is sleeved with coiled upper waste materials (98); the tail end of the fifth hand-tightening type inflatable shaft (521) is provided with a fifth inflation adjusting knob (525) for fixing and loosening the upper waste (98) coiled material; the fifth tension controller is also arranged on one side of the frame (1); the fifth hand-tightening type inflatable shaft (521) is electrically connected with the fifth tension controller through a connecting wire.

6. The method for using the laser coil marking machine with the function of removing liquid waste according to claim 1, wherein the third isolating film unreeling device (6) comprises a sixth hand-tightening type air expansion shaft (61), a sixth bearing seat (62) and a sixth tension controller, and the sixth bearing seat (62) is arranged on the frame (1); a sixth hand-tightening type inflatable shaft (61) is arranged at one end of the sixth bearing seat (62); a third coiled isolating film (19) is sleeved on the sixth hand-tightening type inflatable shaft (61); the tail end of the sixth hand-tightening type inflatable shaft (61) is provided with a sixth inflation adjusting knob (64) for fixing and loosening the coiled material of the third isolation film (19); the sixth tension controller is arranged on one side of the frame (1); the sixth hand-tightening type inflatable shaft (61) is electrically connected with the sixth tension controller through a connecting wire;

The second pressing device (7) comprises a first fixed plate (71) arranged on one side of the frame (1) and a second fixed plate (72) arranged on the other side; a first roller (73) is arranged on the frame (1); the end part of the first roller (73) is provided with a driving piece for driving the first roller (73) to rotate; the middle parts of the first fixing plate (71) and the second fixing plate (72) are provided with a first sliding block (74); a second roller (76) is arranged between the two first sliding blocks (74); a plurality of first guide rods (77) are sleeved above the two first sliding blocks (74); a spring is sleeved on the first guide rod (77); the third isolating film (19) and the polyurethane material component layer (13) are arranged between the first roller (73) and the second roller (76); a first connecting rod (78) is arranged above the second roller (76); the first connecting rod (78) is arranged between the two first sliding blocks (74); grooves are formed in two ends of the first connecting rod (78) and are respectively clamped on a third fixing plate (75) and a fourth fixing plate (79), and the third fixing plate (75) is arranged on the first fixing plate (71); the fourth fixed plate (79) is arranged on the second fixed plate (72); the end part of the first connecting rod (78) is provided with a third rotating rod (791) for rotating the first connecting rod (78) and adjusting the height of the second roller (76);

The finished product winding device (8) comprises a seventh hand-tightening type air expansion shaft (81), a seventh bearing seat (82), an eighth tension controller and an eighth motor (84); the seventh bearing seat (82) is arranged on the frame (1); a seventh hand-tightening type air expansion shaft (81) is arranged at one end of the seventh bearing seat (82); the other end is provided with an eighth motor (84) for driving the seventh hand-tightening type air expansion shaft (81) to rotate; a coiled finished product (97) is sleeved on the seventh hand-tight type inflatable shaft (81); the tail end of the seventh hand-tightening type inflatable shaft (81) is provided with a seventh inflation adjusting knob (85) for fixing and loosening the finished product (97) coiled material; the seventh hand-tightening type inflatable shaft (81) is electrically connected with a seventh tension controller through a connecting wire, and the seventh tension controller is arranged on one side of the frame (1).

7. The method for using a laser coil marking machine for clothing trade marks with the function of removing liquid waste according to claim 1, wherein the bottom waste discharge raw material unreeling device (91) comprises an eighth hand-tightening type air expansion shaft (911), an eighth bearing pedestal (912) and an eighth tension controller, and the eighth bearing pedestal (912) is arranged on the frame (1); an eighth hand-tightening type inflatable shaft (911) is arranged at the eight end of the eighth bearing seat (912); the eighth hand-tightening type inflatable shaft (911) is sleeved with a coiled bottom waste discharge raw material (16); the tail end of the eighth hand-tightening type inflatable shaft (911) is provided with an eighth inflation adjusting knob (914) for fixing and loosening the coiled material of the bottom waste discharge raw material (16); the eighth tension controller is arranged on one side of the frame (1); the eighth hand-tightening type inflatable shaft (911) is electrically connected with the eighth tension controller through a connecting wire; the second release paper winding device (92) comprises a ninth hand-tightening type air expansion shaft (921), a ninth bearing seat (922), a ninth tension controller and a ninth motor (924); the ninth bearing seat (922) is arranged on the frame (1); a ninth hand-tightening type inflatable shaft (921) is arranged at one end of the ninth bearing seat (922); the other end is provided with a ninth motor (924) for driving the ninth hand-tightening type inflatable shaft (921) to rotate; a second isolating paper (17) in a roll shape is sleeved on the ninth hand-tight type inflatable shaft (921); the end of the ninth hand-tightening type inflatable shaft (921) is provided with a ninth inflation adjusting knob (925) for fixing and loosening the second release paper (17) coiled material; the ninth tension controller is also arranged on one side of the frame (1); the ninth hand-tightening type inflatable shaft (921) is electrically connected with the ninth tension controller through a connecting wire; the third adsorption plate (26) is provided with a plurality of guide rods (231) for guiding the bottom waste discharge raw materials (16); the third adsorption plate (26) is also provided with a plurality of vacuum adsorption holes; the third stripping assembly (27) comprises a fourth adjusting rod (271) arranged on the frame (1), and a fourth inclined stripping sheet (272) is arranged on the fourth adjusting rod (271); the end part of the fourth adjusting rod (271) is provided with a fourth rotating rod (273) for adjusting the inclination angle of the fourth inclined stripping plate (272).

8. The method of using a laser roll marking machine for apparel brands with the function of removing liquid waste according to claim 7, characterized in that said first pressing device (93) comprises a fifth fixed plate (931) installed on one side of the frame (1) and a sixth fixed plate (932) installed on the other side; a third roller (933) is arranged on the frame (1); the end part of the third roller (933) is provided with a driving piece for driving the third roller (933) to rotate; the middle parts of the fifth fixed plate (931) and the sixth fixed plate (932) are provided with second sliding blocks (934); a fourth roller (936) is arranged between the two second sliding blocks (934); a plurality of second guide rods (937) are sleeved above the two second sliding blocks (934); a spring is sleeved on the second guide rod (937); the polyurethane material component layer (13), the first positioning paper (14) and the bottom waste discharge positioning paper (18) are arranged between the third roller (933) and the fourth roller (936); a second connecting rod (938) is arranged above the fourth roller (936); the second connecting rod (938) is arranged between the two second sliding blocks (934); grooves are formed in two ends of the second connecting rod (938), the grooves are respectively clamped on a seventh fixing plate (935) and an eighth fixing plate (939), and the seventh fixing plate (935) is arranged on the fifth fixing plate (931); the eighth fixed plate (939) is arranged on the sixth fixed plate (932); a fifth rotating rod (9391) for rotating the second connecting rod (938) and adjusting the height of the fourth roller (936) is arranged at the end part of the second connecting rod (938); the fifth stripping assembly (941) comprises a fifth adjusting rod (9411) arranged on the frame (1), and a fifth inclined stripping sheet (9412) is arranged on the fifth adjusting rod (9411); a sixth rotating rod (9413) for adjusting the inclination angle of the fifth inclined stripping plate (9412) is arranged at the end part of the fifth adjusting rod (9411); the bottom waste discharge positioning paper rolling assembly (942) comprises a tenth hand-tightening type inflatable shaft (9421), a tenth bearing seat (9422), a tenth tension controller and a tenth motor (9424); the tenth bearing seat (9422) is arranged on the frame (1); a tenth hand-tightening type inflatable shaft (9421) is arranged at one end of the tenth bearing seat (9422); the other end is provided with a tenth motor (9424) for driving the tenth hand-tightening type inflatable shaft (9421) to rotate; the tenth hand-tightening type inflatable shaft (9421) is sleeved with coiled bottom waste discharge positioning paper (18); the tail end of the tenth hand-tightening type air expansion shaft (9421) is provided with a tenth expansion adjusting knob (9425) for fixing and loosening the coiled material of the bottom waste discharge positioning paper (18); the tenth tension controller is also arranged on one side of the frame (1); the tenth tight type inflatable shaft (9421) is electrically connected with the tenth tension controller through a connecting wire.

9. The method for using the laser coil marking machine with the function of removing liquid waste according to claim 1, wherein a control device (33) for controlling the laser coil marking machine with the clothing trademark is arranged on one side of the frame (1); a display device (34) is arranged on the frame (1); one side or the lower part of the frame (1) is provided with a vacuum generating device (35).